Printing-telegraph receive.



G. S CONGER.

PRINTlNG TELEGRAPH RECEWER.

APPLICATSON FILED 00118, 191:.

Patented Apr. 4, 1916.

M92105 14w", 0. 5f Uazger G. S. CONSER- PHSNTING TELEGRAPH RECEWER. APPLICATION FILED 00113, 19H- i l7fiqgl5, Patented Apr. 4, 1916.

7 SHEETS-SHEEY 2.

! iiii lllil llllfllil G. s. QONGERQ G. S. CONGER,

PHINTlNG TELEGRAPH RECEIVER,

APPUCATION FILED OCT. I8! 1911- 3 E..,N&$,2 i550 Patented Apr. 1-, 191%).

7 SHEETS-SHEET 4- G. s. CONGER.

PRINTING TELEGRAPH RECEiVER.

Patentsd Apr. 4%, Z SHEETSMSHHET 5.

AFPUCATSON FILED 0CT.18. 39H.

gr d

G. S. CONGER.

PRINTING TELEGRAPH RECEIVER. APPLICATION FILED OCT 18. I911.

Patented Apr. 4,1916.-

7 SHEETSSHEET 7- guy/4 1 @M i 9 1, Mia 3 1: can snares rad ans FFKCE.

GEORGE S. CONG'ER, OF-NEW YORK, N. Y., ASSIGNOR TODOW, JONES & COMPANY, 015 I I NEW YORK,-N. Y.

PRINTING-TELEGRAPH "JEEJIKJIEIVIL integers.

Specification Letters Patent.

Patented Apr. 4, 191%.

1 0 an w/wm it may conccm Be itknown that I, Gnorcn S. CONGER, a citizen of the United States, residing at New York city, New York, have invented certain new and useful Improvements in Printinglelegraph Receivers, of which the following is a clear, full, and exact description.

This invention relates to a printing-telegraph receiving apparatus which is adapted to receive electrical messages and present the same upon a printed page, and is of the general character as shown in the patent to Landfear #765,978, dated July 26, 1904. As is usual in such machines, my apparatus is arranged to be controlled by a transmitting circuit and comprises the several fcatureS of neans for holding a sheet of paper, I a rotatable type-wheel, and means for moving said type-wheel and paper sheet transversely of one another for letter-spacing, together with means for feeding the paper longitiulinally of said type-Wheel for linespacing.

.lviore particularly the present improvement consists in providing an individual source of power for actuating each one of the above-named mechanisms ofthe apparatus and in having each oneof said actuators under the immediate control of the transmitting circuit for positively operating their respective mechanisms, whereby all of the operating parts of the machine are made quiclny responsive to themessages sent. By this arrangement, a suitable construction of which will be described at length in the following specification, I have provided a printing telegraph receiver which will operate at a much higher rate of speed and with far greater accuracy in' presenting messages, than the machines at present in My invention consists further in several improved details of construction as will be hereinafter described, as well as the general combination of parts making up the com-- plete machine, and I am aware that many modifications and equivalent arrangements may be employed without departing from the full scope of my invention.

In the drawings which show the preferred embodiment of my invention, Figure 1 is a front elevation of the entire machine; Fig. 2 is a sectional plan of the same through line of Fig. 1; Fig. 3 is it R ft-hand end view of the machine; at is a right-hand end view; Fig. 5' is a transverse section along line '55 of Fig. 1 looking in the direction of the, arrow; Fig. 6 is a transverse section. along line 6-6 of Fig. 1 lookng in the direction of the arrow; Fig. 7 1s a sectional detail of the type-Wheel; Figs. 8 and 8 are further sectional details of said type-wheel through line 88 and 8*-8 re spectively of Fig. 7; Fig. 9 is a detail of the feeding rack; Fig. 10 is a sectional detail of one end of the type-Wheel shaft showing tension means thereon; Fig. 11 is a sectional detail of the circuit-closer for the winding circuit; Fig. 12 is an end view of said circuit-closer; Fig. 18 is a detail of the paper-feeding pawl mechanism; Fig. 1 is a detail perspective of the type-wheel guard; Fig.7'15 is a diagrammatic view of the electromagnetic actuators for the dit- E's-rent parts of the machine, together with the energizing circuits therefor; and Fig. 16 is a detail section through line 16- 16 of Fig. 10 showing a contour of the torsion spring for the type-wheel shaft.

Referring more particularly to the draw ings, the frame of the receiving instrument consists of the base 1 and end plates 2 and 3. Mounted in suitable hearings in the upper portion of the end plates is the typew heel shaft 4 carrying a type-wheel 5 keyed thereto for rotation therewith but slidably mounted on said shaft as shownv so as to be moved transversely back and forth along the same. -The type-wheel 5 is preferably of the usual construction having fixed to its periphery the characters to be printed, and the particular manner preferred by me for mounting this type-Wheel 5on its shaft 4 sov as to be freely slidalole thereon and yet preserve a definite and fixed printing point for each one of its characters is shown in Figs. 7, 8 and 8 Referring to said figures it will be seen that the type wheel has adjacent to its hub 22 a separate collar or follower 24 connected to said hub 22 by a coil spring 2-6 tending to rotatesaid type-wheel and collar in opposite directions relative to said shaft 1. The typewheel in'its, keyed connection to the shaft v whereh i it also has a. free play on the shaft -1l-. Since the type-wheel huh is connected to the follower 24 by coil spring 26, it will be obvious that the separable parts are thus held against the opposite sides of their re Sportive slots .23 and so as to maintain a fixed relation to the shaft eland yet permit of an easy sliding movement thereon, due to the wide slots.

The type-wheclshaft i is provided with the usual escapenlent mechanism at one end thereof for controlling its rotation, shown more particularly in Figs. 1 and Jr. This escapeinent mechanismcomprises an escape wheel 7 fixed to the shaft and released step hr step by the double hooked arm 8. which Forms the armature of polarized magnets N. In the present embodiment these polarized magnets are operated in the usual, manner by the transmitting circuit 96 as shown in Fig. 15, which transmitting circuit may have an alternating current passing therethrough whose numheroi' alternate impulsestor fixing the ty iewheel shaft in dili'crcnt positions is contr lled by a transmitter (not shown}. The means for sending alternate impulses through said transmittingcircuit is indicated diapu'anuuatically in Fig. 15 hr the circuit changer 9S).

Tg/pearlrrrd almffi actuating 1iwc'/mriiam.- The means for creating a constant tension on the t vpc wheel shaft 4 tending to rotate the same consist of a. coiled spring (3 (see Figs. 1 and 1%)). connected at one end to the shaft 4 through escape pinion 7. and

at its other end to a pinion 57 loosely mounted on said shaft 4, as shown in Fig.

10 The torsion spring; (3 is kept in a wound mndition tending at all times to rotate the shaft l by means of a large spur gear 58 (sec lfigs. 1 and t) engaging with the pinion 57, said gear heing intermittently driven in the same direction by a pawlrarrier 32 loosely mounted on shaft 60 and having a pawl (31 for engaging a ratcl'ict wlieel 59 connected to said spur gear 58. A s 'iring 6? tends to keep the pawl (31 in engagement with said. ratchet 5E), and the pawl-carrier llit is oscillated h means of an arm (it fixed to shaft 65, said shaft also havingiixcd thereon an armature (it; which is attracted hy the magnet Z which r'orins the source of power or the electromagnetic actuator for the type-Wheel aha l't winding mechanism (see Fig. 2). A spring 6? moves the arm i'al for withdrawing thy-armature ill, and a stop (38 is provided to limit said increment. lfrlpring detent il prevents retrogri'ulc rotation of spur gear 58.

The elcctroouagnetic actuator Z is, energlaed intern)il'tently by a circuit 101:), 10%, al'uiwn dlap rainiuatically in Fig. '15. An intermittent circuit-chisel" 100 for closingthis winding circuit with the necessary frequency is mounted on one end of the typewheel shaft 4:, as shown in Fig. Said cir cuit cioser comprises the conducting portion 101 and an insulating hralte 102, upon which bear brushes 101, 102, respectively, connected in said circuit 103. The winding circuit receives its current from any suitable source, such as battery B shown in ll ig. 153, and it will. be clear that at each rotation of the type-wheel shaft 4 the circuit is closed by the circuit-closer 100 to energize magnet Z and consequently wind up spring 6. The arrangement is such that the spring wound up at each rotation of the Slll'lft at least as much as it loses by said rotation, so that the tension upon the same is substantially constant, although prcferal'ily the hat-- tery B should he of such strength as to be ineffectual for operating the armature (56 when said spring is wound tigl'it. The coils ofthc'torsion spring (3 surrounding shaft 4 are angular as shown in Fig. 16, instead of lacing circular, so that said spring when heing wound by its pinion 5?, will not hucldo and cramp. The oils are preferably shown as having been wound on av square arhor, although thei might equally he wound on a live-shied, six-sided or smewsided arhor, the essential requirement heinothat they should not he circular. l have found that such a torsion spring may he used without the necessity of an outer covering shield for keeping it in place, for with angular coils as'thus shown the sprinp willdistriluite its tension throughout its length without hurkling.

Lettcrepar ing mar/main:. I or spacing: letters in each horizontal line upon the printed page I prefer to more the typewheel transversely of the shoot of [)flIIOXJfiIH'l. for this purpose I mount a type-wheel car-- rier 27 slidahly upon an angular shaft 538 as shown in Fig. 5. This type-wheel carrier isq n'ovided with. forltedarms 31 and 323 (a .n Fig. 1) engaging grooved huh portions: and 34 at each side of the typeovhecl 53, as shown in Figs. 1 and 7. The sides oil." the forked arms 3]. and 32 are cut awa as; shown 1n Fig. 5, so as not to rest against the hub of the typenvhecl 5, thus avoii'ling an trict1on to prevent its free rotation, and the typewheel carrier is further supported h'v a horizontal extension 25) running withiii a grooved rack 30 as shown in Fla: 51. This construction provides a two-point. slidahlc bearlngfor said type-wheel carrier to prevent any tendency of the same to rest against the type-wheel and check its free rotation. Upwardly extending arms are also. provided on the type-wheel carrier 27, and mounted in the ends of these arms is the usual ink-roller 36 adapted to bear against the type-wheel 5. l ivotally mounted at 40 upon a lower-extension 39' of the type-wheel I A l is attracted.- by magnets Y which form the source of power or electro-magnetic actuator for operating the letter-spacing; mechanism. The springlll is provided to return the lever 44 after eachattraction; and a throw-oft dog is provided to disengage the pawl 43 from rack 42 after each forward movement to allow said rack to return under the forceof a spring 56 connected thereto as shown in Fig. 2. An abutment 112 is also provided to limit the rearward movement of said lever 44. It will be ob vions that at each forward movement of the feed rack 42 the type-wheel carrier 2'! iscarried a step along its support. by the engagement of one of its pawls, such as 38; with the rack 42, and is maintained in it's for- Ward position by the engagement of the other pawl 37 with the stationary rack 41.

Springs 73 and 72asshown in Fig. l'tend to keep the respective pawls 37 and 38' in engagement with the feed racks. In order to prevent any overthrow of'the type-Wheel carrier 2'? .under the forward impulse of said feed rack 42 a checking device is provided as shown more clearly in Figs. 1 and 9.

This checking device preferably consists of a toothed bar 79 supported on side arms 93 fixed to a rocking shaft 93, which shaft is oscillated for operating the type -wheel return mechanism, as will. be hereinafter described. The outside. pawl 38 of the type wheel carrier is provided with a lateral extension 88 wllich, when said pawl rides upwardly over the teeth o f'the. stationary rack 11, is thrown behind one of the teeth 7 9 on the checkingbar it, as shown in Fig. L. The teeth 79" "of the chec lcing bar are located slightly forward of corresponding teeth on rack 41 and act to check the forward advance of the pawl 38 but permit it to drop into the notch of the next succeeding tooth on rack 4;2. Thus it will be seen that with the oscillation of lever 44 by-tl1eenergiza tion of magnet Y thefeed racks movezthe.

typewheel' carrier and. type-wheel step by step transversely along their supports to the right of the machine, and by positively checking any overthrow, the type -Wheel prints acurately andwith even spacing bes. A. return arm. 69 impelled P Fl tends to returnthe carrier at -5 to the left side of the machine. The :whcel is provided with a guard 36' (as shown in 11%) mounted on-the carrier 2? (asshown in Fig.- 5), which cover the type-Wheel adjacent its print 9. The armature 46 of said lever oscillate arms 52.

spring such as 52 ing point, and hasa transverse slot 57 for exposing the character to be printed, In order to prevent smearing of the printed characters on th paper as the typewheel and guard is moved transversely thereof, the slot 57 of said guard is cutaway at each end at 5'8 and 59 as shown in Fig. 14, where by no part of the guard comes in contact oscillatingshaft 51 (see Figs. 2, 5 and 6), said shaft 51 having a foot extend ing outwardly therefrom and adapted to be engaged and oscillated by a cam whcel' l9 rotatably mounted in the frame. The cam wheel 49 is provided with teeth adapted to be engaged by a pawl l8 carried on the nioving feed rack 42, (see F By this construction it is seen that every time the feed rack is returned by spring 56, the can; Wheel 49 is given a partial rotation and acts to depress foot 50 and consequently and platen against the paper for printing. This operation takes place preferably by the return movement of the leedrack 42, whereby thetype-wheel is completely at rest ready for printing, havlug been moved to its new position by the forward movement of the feed rack l2. A may be provided to keep tlIQ'fOOt 50 in engagement with the cam wheel 49, and'an adjustable stop 54: fixed at 55 may also be provided to limit the throw of foot 50 under the action of said cam Wheel. l

The circuit for energizing the magnet Y and consequently operating the letterspacing mechanism and the printing mecl1anisin.tl1rough. armature 46 is shown diagrannnatically at 97 and 98 in Fig; This letter-spacing and printing circuit is connected to the battery B asshown. and is closed by an armature 99 attracted by relay magnet S in the transmitting circuit 96.-

for printin the alternations cease and a I currentin one direction continues through sa1d relay magnet S thereby energizing the same and closing the, relay circuit 97 and I It \vill'thus be seen that the relay=circuit 9.7 and 98 operating the magnet Y is promptly closed after the type-wheel has been fixed in position.

Line-spacing mcchansm ln order. to

the lines cl theprmted matt-er onthe o man page 1 preferably more the sheet. of paper longiythrlinall r oi the typeorheel. The sheet oi paper may he lixtl from a let-oil roll mounted in any eonrenient plane adjacent the lnarhinr {not shownl upwardly hetuerii tho printing platen type-Wheel 5 and tin-radial hetweeii the paper feed rolls ill, 1H. 17 It! mounted at the upper portion oi the ninrhine as shown in Fig. 1. The rolls; Hi and 1? are carried on a eoinmon i shaft 1:3. u'hirh shait is: journaled. in the side plates 1! and Z3 oi theii'nnie and rotated at proper times my a pawl and ratchet int-chaplain shown in detail in Figs. 5 and Ii. The pressure rolls 1S and 19 are car ried on swinging: arms 20 iind 21. res lientirrl iu so as to rest by grarit against the positively lll'll'tll rolls 1G and 17 and adapted to be. lifted therefrom when it desired to remore or of the shaft thread the paper. At one end i as s lmon in Figs. 1 and-5, is llXtil-ii irate t Tl having peripheral teeth T-l' and pins i330 projecting from one side thrrro'l hs slump in Fig. 13. A pnwliarrier TH is? loosely mounted on the shaft li'ratdjm rent said ralrhet l'l. said earriei" having a pawl for engaging thoteeth H of said 1'ilttllQlarf tllfilltl'iltlllg arm 83 pivoted at h-l is oonnertijul lay a link 71) with said pawl rarrier ior swinging the same. and said arm H t has an extension shoulders-l for engagin 1; with the pins SH oi said intoliet 74 when said nrin moves over to roving the pawl rarrivr and operate the ratchet. This shoulder hl-l" nets as. a stop .tor preventing the overthrow of said ratchet wheel it when oporateil. lho eonneoting link 79 also proriilu l with an GXli'dllElUll hook E51 integral thrrou'i th. which normally rests just. in front of one of the pins 80 as shown in Fig. 22%, when Hillill ran-hot wheel is at rest. This hoolt ill prerents the ratchet wheel from 1 hoin r iurnoii i:nlepeinlentl of the, pawlcarrier in the direetion oi the arrow, for

f inrtanriwhen one desires to feedthe paper hr hand and pulls the sheet through the rolls. lt will thus be seen that the paper.- l'riil shaft 112i is halted by shoulder 54." from a n overthrow when Saul pa wl'earrier 1s ioprratetl 21ml is hehl hr the hook 81 from l ving" llll'luhll when said pairhenrrier is at rent, it will also he understood that the hook H1 in no PtrHltJlfilIlttl that it will swing;

downwardly out oi the way oi? pin 80 when the pearl-earner 1.; moved in the direction of the arrow in liio'. 13. The operating arm 83 oi the pawl anti ratehet mechanism ie oseilhitoil by means of an armature lever 85 lined to shaft ST provided with armature til iiclaptetl to he attri'ieted hy the magnet IX, ri'hioh .llli'lllI-i the source of power or rhaztroniagnetie actuator for the line-spachip' meehanii-nn. A spring 86 is connected to lllllllllllMl lever for withdrawing the Type-wheel return mochanismh -For ordimry purposes ibis usually desirable to re turn the type-Wheel at the left-hand side of the page for beginning; a new line when the paper is fed for aid to space said lines, rind therefore I have oonneeted with the linespaeing mechanism the mechanism for re turning saidtypeovhool so that they will be operated simultaneously, although of course it is to he understood that they may be op erated independently if desired. Extending forwardly from a shaft 93 mounted in the side plates and 3 of the machine are urine 9% earrving at their outer ends the transversely-extending blade 95. llearwm'dly extending from said shrilt 1: 3 is an'arm 9O inwing a slot 91 engaging ll. pin 92 onthe oper ating lever 83. The blade 95 is located he neath theprojeeting pin 4.0 of the pawl 38, whereby when the blade 95 is raised the pawl is uithdmwn from engagoment with raoh +2. The pawl 37 has a lateral. projootion 37 as shown in l iggs. l and 5, extending over the top of pawl whereby when pawl is raised it rzirries with it pawl. 37 and thus releases hoth pawls from the ranks 'll. andlii to allow the return of the ty'peovheel carrier 27 under the force of its returil arm 69. This time evident that by eiurh OSClllflwtion ofthe arm 83 the paper 11-; fed forward for a new line and simultaneous!y the typewheel Cll'l'lilgti is released from the rarhsi 4 1. and 4-2 and restored to its initiiil'position relntive to said paper sheet. lrloreover, when the shaft is rocked to release the pools of the tyliifiwllt t l carriage from the racks 41 and 4-52 the toothed oheehin bar 79 is also raised to withdrz or its teeth completely from i the path of movement of said extension 38% closed when desired throngh-the proper op{- H5 eration of the transmitting circuit by the f0llowing mechanism:Referring to Figs. 1 and 3. an arm 10f fixed to the armature {l6 one tends laterally through the side plate 3 of the machine and engages with a lever 105 pivoted at 105" on the plnte 3. The lever 105 supports at its outer end a, vertically extending support 106, which is made of two parts telescopically, conneeted so as to yield in its lengthwise direction. Support 106 is a guided in its vertical movement by slot 105 and pin 106" and carries pivoted to its 1lp' per end and insulated therefrom a contact 101 connected to one branch of the oircuit 109. The contact 107 may have a small spring for yieldingly keeping it in extended pcsitionuponthe end of support 106. ,The

type-wheelshaft 4 extends through they side plate 3'and carries at its outer end disk/l insnlated'"therfrorn.- The disk 4 carries on its periphery saf. projecting contact pin 108 i'vl'iich is iii-electrical connection with the other branch 109 of said energizingcircuit. It understood thatthe lever 105 andcontact 107 is vibrated vertically at each energization of magnet Y when a character is printed, and ordinarily the contact 108. is'

not in line with contact 107 v'lor meeting the same in its IIPNViLIdJnOVBnIBHt and closing circuit 109, 110w Contact pin 108 is located onjdisk 4: at a point in its periphery corremechanism.

- vided with a spiral groove 1'2 and pivotally mounted upon the frame adjacent said The present apparatus may be supplied with thesynchronizing device of the well known character shown in Fig. 1, in which one end of the type-wheel shaft d is progroove isa lateral swinging lever 13 having a pin l3 normally in engagement with the piral groove "12. During the rotation of the shaft t the lever 13 by the engagement of is connected in the transmitting circuit for pin 13 with the spiral groove is adapted I to swing laterally across the machine until a shoulder 13" of'the same comes in contact with the pin let ofqtlie type-wheel shaft 4,

whereupon said typeqvh'eel shaft is held" from further rotation. The'lateral travel of swinging lever 13 along groove 12 is sufficient to allow the type-wheel shaft 4 to rotate at least two full revolutions before shoulder 13?" comes in contact with the pin 14% for stopping said shafts. This allows the type-whcelj; to present any one of its characters to the printing point without danger ,h'ig'tlie' shaft d being automatically stoppedl. During the operation of the machine thissynchronizing lever 13 is disengagged froign groove 12 each actuation of magnet Y and is provided with spring (not shown) a for returning it to the left side i of the machine. The swinging lever 13 is W i n: a

' nigmary-elleferring to "diagrannnatic Fig. 15, the several operations of my ing apparatus may he briefly summarize'd as followsz It isunderst0o'd that a transmitter of any usual type (not shown) sending alternate impulses. of current through the circuit 96, the number of said impulses depending upon the character on c nnected to the armature 105 off magnet Y.

the type-wheel which it is desired to print,

whereby the'polarized escapement mocha;

nism positions the type-wheel'in its printing position. The last of the alternate im- J pulses which fixes the tYPGrWhGBl. in its position continues through the circuit 96 in direct linefor a suflicient length of time to energize the relay magnet S, closing the relay circuit 97 and 98, energizing magnet Y Iptor operating the letter-spacing and printmg mechanism as above described. When the operator at the transmitter reaches the end of a line he presses a key for positioning the type-wheel to bring contacts 108 and 107 in line, thecircuit 109 and 110 being then closed by causing the printing magnet Y to attract its armatureelti The actuator Z or" the winding mechanism is energized by its circuit 103 and, 104" independently of r the other circuits by the contact closer on the type-Wheel'shaft.

I It will thus. be plain that there is provid ed in the present apparatus a separate and individual actuator for the letter-spacing mechanism, line-spacing mechanism and the type-wheel shaft tension mechanism, and that each one of these actuators is energized by an individual relay circuit under the control 1 of the transmitting circuit 95,

whereby each relay circuit be quickly responsive to the operation of said transmittingcircuit for positively operating its respective actuator andcorresponding mechanism.

What- I claim is: i p 1. in a printing telegraph receiver in combination, a rotary type-wheel shaft carice ryingatype-wheel, an electromagnetic actuator for automatically storing power to rotatesaid shaft, means for releasing said shaft, means for holding a sheet of paper and letter-spacing mechanism for shifting said type-wheel and said paper sheet transversely of one another, a second electro-- magnetic actuator for operating said letter- .spacing mechanism, line-spacing mechanism for shifting said paper longitudinally of said type-wheel, a third electro-magnetic actuator for operating said line-spacing mechanism,' and an individual energizing circuit for each of said above-named electro-magneti'c actuators.

2. In a printing telegraph receiver in combination, a rotary type-wheel shaft carrying'a'type-wheel, an electromagnetic actuator for automatically storing power to rotate-said shaft, means for releasing said shaft, type-wheel positioning mechanism,

means for holding a sheet of paper and letter-spacing mechanism for shifting said type-wheel and said paper sheet transversely of one, another, a second electromagnetic actuator for operating said letterspac'ing mechanism, line-spacing mechanism for shifting said paper longitudinally of said typcorheel, a third electromagnetic actuator for operating said line-spacing mechanism, and an individual energizing relav circuit foreachot said above-named clcctroanagnetic actuators controlled by said type-Wheel positioning mechanism.

3. In a printing; telegraph receiver in combination. a type-wheel :arrying a series of type, typcovheel positioning mechanism comprising a transmitting circuit for detcrmining' the particular type to be printed, means for holding a sheet of paper and let teuspacing' mcchanisn'i for shifting said tqrpeovheel and paper sheet transversely of one another, an electromagnetic actuator for operating said letter-spacing mechanism, line-spacingmechanism for shifting said paper longitudinally of said typeivhcel, a separate electromagnetic actuator for operating said linespacing mechanism. an individual energizing relay circuit for each of said. electromagnetic actuators, including a source of electric energy therefor stuiarate from said. transmitting circuit, and a relay magnet controlled by said transmitting circuit and opcratively connected with said energizing; relay circuits. with the t11-' nurture oi. said relay magnet in the circuit of the clectromagnct of the letter-spacing mcclmnism. adapted to he moved by the energization of said relay magnet.

"t. In a printing: telegraph receiver in romliinatimz. a type-wheel carrying a series ot type. typeorhccl positioning mechanism comprising a transmitting circuit for determining thopartirulartype to he printrd. means-tor holding ashcet of paper and printing! mechanism for impressing said pa per against said type wheel for printing,an electro-rnagriwtio actuator foroperating said printing: nm-hauisnn.Iinospaciug mecha nism for shi lthm said paper longitudinally oi said typeorhccl. a separate electro-magnrtic :urtnai'or i'or open-ding said linc-spac ing:mechanism. and an individual energizin; relay circuit for each of said electromagnetic actuators. including a source of.

rlwtrir: t-ni-rp'v ihorrt'or separate from said trmismittingr circuit. and a relay magnet rontrolled h) said transmitting circuit and opcrativcly connected with said energizing relay circuits. with tho arumture of said relay magnetin the circuit of the electromagnct or the printing; mechanism. whereby all of said parts arc adapted to he moved by the oncrgization oisaid relay magnet.

5. In a printing telegraph rercivcr in combination. a tjv'pr-whrcl carrying a series of typm t vpcsu'hcel positioning mechanism romprisingr a transmittingcircuit for deter.

mining the particular type to he printed. means for holding a sheet of paper and letter-spacing: meclmnisni for shifting said typc-whmel and said paper sheet transversely whereby all of said parts are of one another, an electromagnetic actuator for operating said letter-spacing mechanlsm.

.return-mochanism for restoring said typerotation of said shaft, means for holding a sheet of paper and lettersparing mechanism for shifting said type-wheel and paper sheet transversely of one another. an electro-mog netic actuator for operating said letter-epicing mechanism. linespacing mechanism for shifting, said paper longitudinally of said typcovheel, an electro-nuignetic actuator for operatinp said line-spacing mechanism, and an individual energizing relay circuit for *ach of said electromagnetic actuators controlled by said transmit-ting circuit.

7. In a printing teleg 'aph receiver in combination, a type-wheel carrying a series of type, type-wheel positioning mechanism comprising a transn'iitting circuit for determining the particular type to he printed, means for holding a sheet of paper and letter-spacing mechanism for shifting said type-wheel and paper sheettransversely of one another. printing mechanism for inipressing said paper against said type-wheel for printing. a single clectroanagnetic actuator for operating said letteusparing mechanism and said printing mechanism, linespacing mechanism for feeding said paper longitudinally of said typeorhccl. a second elcrtro-inagnetic actuator for operating said linc spacing mechanism, and an indi: vidual energizing relay circuit for earn "or said clcctroniagnctic actuators controlled lrv said transmitting circuit.

ln =1 printing telegraph receiver in romhination. a typo-wheel carrying a series oi type. type-wheel positioning nnwhanisni comprising a transmitting circuit for determining the mrticular type to he printed.

means for holding; a sheet of paper and lettor-sparing mechanism for shifting said typo-wheel and paper sheet transversely of one another. printing mechanism for impressing said paper against said type-wheel for printing. a. single electromagnetic actuator for operating said letter-spacing mechanism and said printing inechanisun linespacing, mechanism for shiitins, said paper longitudinally of said type vvheel, return mechanism for restoring said type-wheel to 1,178,213 man.

its initial position relatii c to sai'd'paper sheet for a new line, a, second electro-megiietic actuator for operating said line-spacing mechanism and said return mechanism,

and an individual energizing relay circuit for each of said electromagnetic actuators.

controlled by said transmitting circuit.

9. In a printing telegraph. receiver in combination, a rotary type-Wheel shaft carrying a type-wheel, an electro niagnetic actuator for giving rotation to said'shaft, type-wheel: positioning mechanism comprising a transmitting circuit for controlling the rotation of said shaft, means for holding a sheet of paper and lettenspacing mechanism for shifting said type-Wheel and said paper sheet transversely of. one another, printing mechanism for impressing said paper against said type-wheel for printing, a second electro-magnetic actuator for operating said letter spacing mechanism and said printing mechanism, line-spacing mechanism for shifting said paper longitudinally of said type-wheel, return mechanism for restoring said typewbeel to its initialposi-i tion relative to said paper-sheet for' a new line, athird electro-niagietic actuator :tor operatingsa-id line-spacing mechanism and said return mechanism, and an individual energizing separately-closed relay circuit for each of said electromagnetic actuators controlled by said transmitting circuit.-

'10. In a printing telegraph receiver in combination, rotary type-wheel sheftcarrying a. type-wheel, tension mechanism tending to rotate said shaft, on electro-magnetic actuator for said tension mechanism, an

' clectro mzflgnetically operated escapeinent nisin and said return mechanism, and an inv. i g dinduill energ ring relay circuit for. each of said lectromagnetic actuators controlled by said transmitting circuit.

' ll. In a. printing telegraph. receiver in combination, arotary type-Wheel shaft carrying a type-wheel, an clectro-magnetic actuator for creating tension on shaft tending to rotate the same, an individual energizing circuit-for. said actuator adapted to he closed by each rotation of said shaft, an

escapement for said shaft comprising polar ized magnets and armature, a transmitting circuit carrying alternating iinpulses'for op erating said polarized magnets, means for holding a sheet ofpa-per and letter-spacing mechanism for shifting said typenvheel and paper sheet transversely of one another, a second electro-magnetic actuator for operating said lettenspacing mechanism, an individual relay circuit for energizing said second electro-mag ietic actuator adapted to be closed by a continuation of one of said transmitting impulses, line-spacing mechanism for shifting said paper longitudinally of said type-wheel, a third electro-magnetic actuator for operating said line-spa cing, and

an individual relay circuit for energizing said third electroanagnetio actuator adapted to beclosed by the operationof said second actuator When'the' transmitting circuit has fixed the type-wheelin acertain position.

12. In a printing' ite1egraph receiver in combination, a. rotary type-Wheel shaft car-- rying a type-wheel, an electromagnetic actuator for, creating a tension on shaft tending to rotate the same, an indiyidual enorgizing circuitfor said actuator'adapted to be closed by 'e'acli rotation of said shaft, an

escapement for said shaft comprising polar-V ized magnets'zind rmiiture, s transmitting circuit carryingalternate impulses for operating said-polarized magnets, means for holding asheet oi-pape r and lettenspacing mechanism for shifting said type-wheelfa id paper sheet transversely. of one another, printingmechanism for impressing said paper against said type-wheel for printing,

a secondelectro-magneticactuator for oper-' ating said letter-spacing 'ineohanism and said printing mechanism, an individual relay circuit for energizingsaid second electro-niagnetic actuator adapted to he closed by a continuation of one of seidtranmitting impulses, line-spacing mechanism for shifting said paper longitudinally of said type- :wheel, return mechanism for restoringisaid type-wheel to initial position relative to said paper sheet reedy for a new line, a third line-spacing,- and return mechanism, and'an individual relay circuit forenergizing said third electro-inagnetic actuator adapted to be closed by. the operation of said second actuator when the transmitting circuit has fixed the typerwheel in a certain position. 13. In a printing telegraph receiver in combination, a rotary type-wheel-sliaft having a type-wheel slidably mounted thereon,

means for holding a sheet of paper, a movable printing platen adopted to press said sheet against said type-Wheel for printing, lettenspac ng mechanism comprising a "1- brating member adapted in one movement toshift said type-wheel along its shaft transversely of said paper sheet and in its reelectromagnetic actuator for operating said Wheel forprinting, letter spacing mocha-- nism comprising a vibrating member adapted n one movement to shift said type-\vheel along its shaft transversely offlsa'id pope? 1 sl'ieeta'nd mllts return movement toopen' atosazdpnntmg platen an electro-magnetio aetliatornfoifi operating said linespacing said transmitting:circuit for energizing said rotation of said s haft,'me;i11s for holding a" iiing'ed to Ifeed said ty' shaft transversely ota: d .1

- foriverd JHQVQHHLDQIQ a ridv ligyving;connootio Q oi'foperatiiig "sin (1 printingjvla ten in ts 1": *inoi emont, m electro-ma fifi'letlb 'aotu ooritz olled by said ti-an mittiiw Big-Sal i actuator ,1 l ombximtxon, atypea eelycgix i ifniga i of, type; wisitiomngi mechanism foi (let int-Hu meelm'nism fnr'imp against sum type wheel for 1)l'l1ll'-lllg,, u 11 -accombihnl'ion, i1 tyyid-u-lwel carryingitjserios p:i er-f.-;lieet egain." said t v e,-\-"\'heel for i Printing: an electromagnetic;actuator for qaeye-bng sa l-l printing mechanism, a relay circili'al: for e iex zing Said actuator eon-vtroltei by said. ansmitting vtirctut, linei 1,1'za,21:s

spacing mechanism for shifting said "paper printing' ui. ot toimech enismand airelay circuitcontrollekl by h I 'type vlleel," aii'lecti 155 .111 "a printing: telegraph i'eceiv'er' in iwm ts fl mbination, a Tot- 11' type-wheel shaft hawrig. type-[Wheel siidably mojmited theif'eon ype wheelpositioning meolmnisni"(toin}jrisi"' when Silld-tYP Wh e1 'hoft' heetof :.p:iper,' {L 1110 va'ble printingplaten da pted toijimprese' said sheet against said;

ato'r moving suiilirack no in .i ela-i' cii'i lit intiiigtelegraph ioquxe -pa 'tsqilnr'type to lie p iiiteil;

lieetoi paper,- printing ng sa d paper sheet 'tmitm"ifoisaiil-rprinting meehzuiiism, li'nespacing meulmnism for shifting said paper I for o eratin f sail w nds-41dtype wlieel positioningn'ieclmmsm:

l7 In in printing. tiiiflgl'tlflll .frqceiveiy in" o 40f type, tyl'nmvlieolpositioning mechanism l foy I determining the particular type to, be prin ed 5mins for holding :1 sheet of pa- 5. pen-painting moehoviirmi for impressing Said longitudinally of said type-wheel,' {LSQCOIKl electromagnetic actuator for operating Said line-spacing mechanism, a relay circuit for 4; energizing said second Actuator adapted to 1 be'closedby the operation of said. firstniimed elect-rmmiignetioactuator when said transmitting cii'cuit' 'hxs fixed said type-g wheel in :1 predeterminedposition g I 18. 111,411 printing:-telegrapl receiver in e o w combination, a typewheel shaft carry ng a V type-wheel, type} vlieelfpositioning mechains1 n for controllingf'itlie rotation of said shaft, means forl olding :1h(l= ])i lntii1g meqhalils paper gheetg against San mechams shifting Saul pep energiZin'gFoi mined p'o's iti a lettei' spacing mechanism, o hi ftiiig Said-1 type-wheel and paper,sheettransverselyof. one another, anieleotro-magi eti actuatot l irsp ci gjl med .1' I msm', a relay; circuit nti o'lled'; by" said" transmitting {oirc'uitffo'n energizing guidesf t lator, line-spiking meohaiiismrfofl shifting .said paper longitudinally of "said: typo-wheel,- v a second electromagnotidootuatorfor c per-i ating sa-id line-spacing mecha niu'n; new 1 circuit foi energizing said jactuator-adapted to be closed by the operation-of said' firstnamed actuator when said transinitti" cuit-lms fixed said type-wheel in 235p mined position; 1

21,111; a pzinting telegraph-{rec P so controlled by the said actuator, line-spacing its combination, a type-wheel carrying a series of type, type-wheel positioning mechanism comprising a transmitting circuit for determining the, particular 1 type to be printed, 5 means for. holding a sheet of paper, letters spacing mechanism for shifting said type-- wheel andpaper sheet transversely of one another, printing mechanism for impressing said paper sheet against said type-wheel f0r 10 printing, a single actuatorfor pperatmg said letter-spacing and said prmting mechanism, line-spacing mechanism for shiftin said paper longitudinally of said type whee an electro-magnetiC actuator for operating said line-spacing mechanism-and an energizing circuit for said electromagnetic actuator ada ted to be closed by the coiiper'ative action 0" said first-named actuator and said type-Wheel positioning mechanism. v 270 22 111 a printing telegraph rece1ver 1n combination, a type-wheel carrying a series of type, type-wheel positioning mechanism comprising a transmitting circuit for deterv transmitting circuit has fixed said typewheel in a predetermined position.

' combination, a typewheel carrying a series of type, type-wheel ,positioning mechanism comprising a transmitting circuit for determining the particular type to be printed, means for holding a sheet of paper, letter spacing mechanism for shifting said typewheel andpaper shcettransversely of one another comprising an electromagnetic actuator connected; mechanically with said letterjspacing mechanisnn/a circuit closer -mechanisra gfor shifting said paperlong'i- .j tudiital-ly oiijsaid type-wheel comprisingfeed tatihg, saidrrolls, an electro-ma'gnetic actu-" ator for operating said jpawly audfratchet means, an man-mun relay circuit controlled by said circuitecloser and in. which said last named actuator is located.:=-aai arelay magcircuit, the armature of said" relay magnet being n the same circuit as the electro-magnet of said first namedactuator.

as fiat-[Ina printing telegraph receiyer 'in 23. In a printing, telegraph receiver inrolls-1,1 and pawl and ratchet mea'nsfor roe I 'tuator. net operatirely connectcdsnnth said relay circuit and controlled by" said'transmitting combination, a type-wheel carrying a series of type, type-wheel positioning mechanism for "determining the particular type to he printed, means-for holding a sheet of paper,

letter-spacing mechanism for shifting said type-wheel and paper sheet transversely of one another, line-spacing mechanism for shifting said paper longitudinally oifsaid type-Wheel comprising paper feed rolls, pawl and ratchet means for rotating said rolls, and checking devices operated by said pawl means fort-keeping said feed rolls under control of saidpawl and ratchet mechanism at all times. 25. Ina printing telegraph receiver in combination, a'type wheel carrying a series "of type, type-wheel positioning mechanism for determining the particular type to be printed, means for holding a sheet of paper, I

letterspacing mechanism for shifting said type-wheel and paper sheet transversely or one another, line-spacing mechanism for shifting said paper longitudinally of said type-wheel. comprising paper feed rolls,

pawl and ratchet means for rotating said rolls, and cha ning devices for keeping said feed rolls under controlof said pawl and ratchet mean at all times, comprising a stop for engaging said feed rolls at each propelling movement of said pawl and ratchet means, and a second stop for pre venting the operation or said feed rolls when said pawl and ratchet means are at rest. 1

' 26. In a printing telegraph receiver in of type, typeswneel positioning mechanism comprising a transmitting circuit for determining the particular type to heprinted,

' means for holding a sheet of paper, letterspacing mechanism for shifting said type-- wheel and paper sheet transversely of one another, line-spacing mechanism for shifting .said paper longitudinally of said type wheel comprising paper feeding rolls, pawl and-ratchet means for rotating said rolls, and checking devices for keeping said feed rolls under control of said pawl and ratchet mechanism at all times, comprising stop for engag ng said feed rolls at each propelling movement or" said pawl and ratchet means, and a secondstop for preventing the operation of said feed rolls when said-pawl and ratchet lnean arel at rest, an electromagneticactuator for operatinglsaid pawl fand ratchet means and said checking devices, and a relay circuit controlled said transmitting circuit for energizing said ao- 27.. In a printing teicgraph receiver in combination a t e-wheel carr inn a series of type, type-wheel positioning mechanismfor determining the particular type to be printed, means for holding a sheet of paper,

lettenspacing mechanism for shifting said 10 combination, a type-wheel carrying a series type-wheel and paper sheet transversely of one another, comprislng a stationary and a reciproiaiting rack and a pawl carriage having pawls engaging said racks, line-spacing mechanism for shifting said paper longitudinally of said type-Wheel, an electromagnetic actuator for said line-spacing mechanism having a vibrating armature arm arranged to supply its own power to simultaneously operate said line-spacing mechanisin and withdraw said carriage pawls from said racks to thereby release said carriage for its return. i 4

28. In a printing telegraph receiver in combination, a type-wheel carrying a series of type, type-wheel positioning mecl'ianism for determining the particular type to be printed, means for holding a sheet of paper and letter-spacing mechanism for shifting said type-wheel and paper sheet transversely of one another, comprising a stationary and a reciprocating feed rack bar and a pawl carriage having pawls engaging said feed racks, means tending to return said carriage at all times, line-spacing mechanism for shifting said paper longitudinally of said type-Wheel comprising paper feed rolls with pawl and ratchet means for rotating said rolls, an electro-magnetic actuator for said linespacing mechanism having a vibrating armature arm arranged to supply its own power to simultaneously operate said pawl and ratchet means and Withdraw said carriage pawls from said racks to thereby allow the return of said carriage. f

29. In a printing telegraph receiver in combination, a. rotary type-whee1 shaft carryinga type-wheel slidably mounted thereon, letter-spacing mechanism comprising a stationary and reciprocating feed rack, a carriage for moving said type-wheel along said shaft having pawls engaging said feed racks to be shifted therehy,means tending to return said carriage at all times, linespacing mechanism for shifting said paper longitudinally of said typenvlmel. an electro- :rnagnetic actuator for said line-spacing mechanism having a vibrating armature arm arranged to supply its own power to simultaneously operate said line-spacing mechanism and withdraw said carriage pawls fromsaid racks to thereby allow the return of sa t carriage.

30. In a printing telegraph receiver in combination, a rota typc-wheel shaft carrying a type-wheel slidably mounted thereon, letter-spacing mechanism comprising a carriage having a yoke for engaging said type-wheel to move the same along said shaft, a plurality of guide supports separate from and parallel; with said shaft and on which said rarriag has a two-point hearing for preventing it from resting against feeding said carriage by step along its support in one direction and means tending to return said carriage at all times in the other direction. V i

31. In a printing telegraph receiver in" combination, a rotary type-wheel shaft carrying a type-wheel slidably mounted thereon, letter-spacing mechanism comprising a carriage having a yoke for engaging said type-wheel to shift the same along said shaft. said carriage being slidably supported upon a pair of separated rails so as not to rest against said type-wheel shaft, means for positively feeding said carriage step by step along said rails in one direction, comprising an alternate stationary and reciprocating feed rack and pawls on Said carriage for engaging said feed racks, and means tending to return said carriage at all times in the other direction 232. In a printing telegraph receiver in combination, a rotary type-wheel shaft carrying a type-wheel slidably mounted thereon, said type-wheel being keyed to said shaft for rotation therewith and having a loose play in said key engagement, and tension means tending to rotate said type-wheel relatively to said shaft.

33. In a printing telegraplrreceiver in combination, a rotary shaft on which area series of type, mounted slidably on said shaft, said type having a key connection with said shaft for rotation therewith and having a loose play in said key engagement, and means tending to rotate said series of type reiatively to said shaft.

iii. In a printing telegraph receiver in combination, a rotary type wheel shaft, a type-wheel carrying a series of type and slidably mounted on said shaft, said type wh cl being keyed to said shaft for rotation therewith and having a loose play-in said key engagement, means for printing from said type-wheel, and pressure means acting on said wheel to take up said play for registering every type thereof to the same printing point during the printing opera loose play in said key engagement, a type wheel follower likewise keyed to said shaft with loose play in said key engagement, and a spring connecting said type-wheel and follower tending to rotate them in opposite directions relative to said shaft.

36. In a printing telegraph receiver in combination, a rotary type-wheel shaft can rying a type-wheel, means creating a constant tension on said shaft tendin to 1'0- tate the same, comprising a coil spring connected thereto, an electromagnetic actuator having a vibrating armature with connect stant tension on said shaft gizing circuit being of insufficient connections for winding upsaid tions for Winding up said coil. spring, an energizing circuit for said actuator closed by each rotation of said type ivheel shaft.

37. In a printing. telegraph receiver in combination, a rotary type-Wheel shaft carrying a type-Wheel, means creating a contending to re tate the same, comprising a coil spring connected thereto, an electro-magnetic actuaton having a vibrating armature with connections for winding, up said coil' spring, an energizing circuit for said actuator, and means controlled by the rotation of said type-Wheel shaft so as to maintain said spring in its Wound up condition, ,aid enerstrength tooperate said actuator when said spring isfully Wound. s i

38. In a printing telegraphreceiver in combination, a rotary type-Wheel shaftcarrying a type-Wheel, means creating a constant tension on said shaft tending to rotate the same, comprising a coil spring positively connected thereto and coiled about and connected with said shaft, an electro-inagnetic actuator having a vibrating armature With coil spring, an energizing circuit forsaid actuator, and a means for controlling said energizing circuit so as to maintain said spring in its Wound up condition, said-energizing circuit being of insuflicient strength to operate said actuator when said spring is fully wound, and escapement. means mounted on said type-wheel shaft to release it.

'39. In a printing telegraph receiver in combination, a rotary-typewhe'el shaft carrying a type-Wheel,'means creating'a constant tension on said shaft tending to rotate the same, comprising a coil spring connected thereto, an electro-magnetic actuator 'hav ing a vibrating armature with connections for Winding up said coil spring, an energizing circuit for said actuator, a commutator on said type-Wheel shaft in said energizing circuit adapted to make and break the circuit during therotation of said shaft .to therebymaintain said spring in its Wound "up condition, said energizing circuit being of insufiicient strength" to operate said actuator when said spring is fully wound.

' 40. In afprinting telegraph receiver in combination, a rotary type-Wheel carrying a series of type, means, for holding a sheet of paper and a'printingplaten for impressing said paper agai-nst-fsaidtype-wheel, a guard plate covering'lhe. periphery of said type-Wheel adjacent' the' printing point, and having a transverse slot therein wide enough to expose the type, theren'ds of said slot' be ing cut away so as not to contact with said paper sheet. a

41. In a printing telegraph receiver in combination, arotary typewheel shaft, and means for creating a constant' tension on the teeth of said shaft tending to rotate the same comprising a coiled torsion spring Wound around said shaft having polysided coils of angular contour, the sides of said coil being otsubstantially equallength and the. angu; lar parts of said coils being separated therefore from said shaft.

42. In a. printing telegraph receiver in combination, letter-spacing mechanism comprising a reciprocating'feed rack, a pawlcarriage having a pawl engaged by said rack, a checking bar located above said pawl .to prevent the overthrow of said pawhcarriage.

43. In a printing telegraph receiver in combination, letter-spacing mechanism comprising alternate stationary and reciprocat ing feed racks, a pawl-carriage having paWls engaged by said racks, and aftoothed checle ing bar located above one of said bars to pre vent the over-throw of under the impulse of said 44s. .In a, printing telegraph receiver in combination, a type-wheel and paper-carriage movable transversely of one anothersaid pawl-carriage reciprocating rack.

letter-spacing mechanism movement of said type-Wheel to accurately space said comprising alternate stationary and reciprocating feed racks, a pawl-carriage having xvis engaged by said racks, anda checking pal-located above said pawls provided with depending teeth, one of said pawls having a projection for engaging the teethof said checking bar when advanced 46. In a printing telegraph receiver in conibination, a letter-spacing mechanism,

comprising alternate stationary and recipro:

eating feedv racks, a pawl-carriage having pawls'cngaged by said racks, and a checkmg bar located above said with depending teethoppositely disposed to said stationary. rack bar and set slightly in advance of the same, one of said pa'wls having a projection for engaging the teeth of said checking bar whenadvanced,

47. In a combination of paper holding means, a movpawls provided printing telegraph receiver jthe able type-wheel, actuating means therefor,

a magnet for storing power in saidactnatimeans for rotating said type-Wheel, letters spacing mechanism, a said spacing mechanism, to change the relative positions of said type- Wheel and the paper for line spacing, energizing circuits fOr each of said magnets, a:

rela ma -netcontrollin said circuits; at

magnet for controlling the 'rotationof said type-wheel by thesaid actuatmgmeans, and transmission means for energizing the said nlagnetfor actuating r a magnet operable v tinned.

controlling magnet, and for actuating, said relay by a prolonged pulse through said controlling magnet when the type of the type-wheel is properly positioned.

48. In a printingtelegraph receiver, the combination of paper h lding means, a movabletype wheel, actuating means therefor, a magnet for storingpouer in said actuating means for rotating said type'n'heel, letterspaciug 'inechanisin impression means, a magnet for actuating said spacing mechanism and said impression means, a magnet. operable to change the relative positions oi said type-Wheel and the paper for line spacing, energizing circuits for each 01 said magnets, a relay magnet controlling said circuits, a magnet for controlling the rotation of said type-Wheel by the said actuating means, and transmission means for energizing the said controlling magnet, and for actuating said relay by a prolonged pulse through said controlling magnet when the type of the type-wheel is properly posi- 49. In a printing telegraph receiver, the

combination of paper holding means, a movable type-wheel, actuating means therefor,

a magnet for storing power in said actuating means for rotating said type-Wheel, letter-spacing mechanism, means for actuating said spacing mechanism, a magnet operable to change the relative positions of said type wheel and the paper for line-spacing, energnnng circuits for each of said magnets, a

relay magnet controlling said circuits, a

magnet for controlling the rotation of said type-wheel by the said actuating means, and transmission means forenergizing the said controlling magnet, and for actuating said relay by a prolonged pulse through said controlling magnet when the type of the type-wheel is properly positioned.

so. In a printing telegraph receiver, the combination of paper holding means, a movable type-wheel, actuating means there for, a magnet for storing power in said actuating means for rotating; said'typcwheel, letter-spacing mechanism, a magnet for actuating! said spacing mechanism, means opiwahlc to change the relative positions of said type-wheel and the paper for line-spacing, energizing circuits for each of said magnets, a relay magnetcontrolling; said circuits, a magnet for controlling, the rotation of said type-wheel by the said actuating means, and transmission means for energizing the said controlling magnet, and for actuating said relay by a prolonged pulse through said controlling magnet when thetype of the type-wheel is properly [)USI- lioncd.

51. In a printing telegraph receiver, the combination of a rotary cylindrical typeshaft, and means for creating a constant tension on said shaft. tending to rotate the same comprising a torsion spring coiled loosely about said shaft and having polysided coils of angular contour, the sides of said coils being of substantially equal length.

Signed at New York city, New York, this 31st day of August, 1911. GEORGE S. CONGER.

\Vitnesses Cuns'rnn T; NEAL, A. BaRNsTmN. 

